Claims
- 1. A centrifugal separator, comprising:
a cylindrical bowl operative to rotate at a high speed to separate a feed liquid into centrate and solids, the solids accumulating along the inner surface of the bowl; and a piston assembly including a piston head and a piston actuator, the piston head being disposed within the bowl in tight-fitting relationship with the inner surface thereof and having one or more openings providing for fluid communication between axially opposite sides of the piston head, the piston actuator being operative to move the piston head axially toward a closed first end of the bowl so as to extrude the accumulated solids through the openings of the piston head.
- 2. A centrifugal separator according to claim 1, further comprising a centrate valve at the first end of the bowl, the centrate valve being operative to discharge the centrate in an open position and to close the first end of the bowl in a closed position, the centrate valve being in the closed position during the extrusion of the accumulated solids.
- 3. A centrifugal separator according to claim 1, wherein the piston assembly further includes a piston shaft attached to the piston head, the piston shaft extending through a sealed central opening in the centrate valve to couple the piston head to the piston actuator.
- 4. A centrifugal separator according to claim 3, wherein the piston actuator comprises:
a pair of hydraulic cylinders located on opposite sides of the bowl, each cylinder having a corresponding plunger extending therefrom; a crosshead extending between the respective ends of the plungers of the hydraulic cylinders, the crosshead including a clutch operative (i) in a disengaged position, to be disengaged from the piston shaft so as to permit the piston head to rotate with the bowl about a rotational axis at a substantially fixed axial position, and (ii) in an engaged position, to engage the piston shaft so as to enable the actuator to control axial movement of the piston head.
- 5. A centrifugal separator according to claim 3, wherein the bowl includes a hub with a central passage through which the piston shaft extends, and wherein the bowl, centrate valve and piston assembly are mounted within a separator housing, and further comprising:
a bearing housing having a spherical portion and a short cylindrical portion extending from the spherical portion, the spherical portion being stiffly retained in a spherical mounting region at one end of the separator housing and the cylindrical portion extending into the separator housing along the rotational axis; and a bearing disposed within the cylindrical portion of the bearing housing, the bearing engaging the hub of the bowl so as to retain the bowl axially while permitting rotation of the bowl about the rotational axis.
- 6. A centrifugal separator according to claim 2, further comprising:
one or more springs operative to bias the centrate valve in the open position; and a centrate valve actuator operative to move the centrate valve to the closed position against the biasing of the springs.
- 7. A centrifugal separator according to claim 1, wherein the piston head includes a central area having an inverted cone shape, and wherein the openings of the piston head are disposed around a conical outer wall of the central area.
- 8. A centrifugal separator according to claim 1, further comprising a feed liquid passage at a second end of the bowl, the feed liquid passage being operative to inject the feed liquid into the bowl as a stream directed toward the openings of the piston head.
- 9. A centrifugal separator according to claim 1, further comprising:
a cylindrical housing having a central region, an end region, and an internal surface surrounding an opening between the central and end regions, the central region having the bowl mounted therein, the opening being operative to discharge accumulated solids from the bowl; and a solids valve mounted in the end region of the housing, the solids valve being rotatable about a diametrical axis of the housing between an open position and a closed position, the solids valve having an offset portion operative (i) when the solids valve is in the closed position, to sealingly contact the internal surface of the housing to prevent discharge of the accumulated solids through the opening, and (ii) when the solids valve is in the open position, to be located at one side of the end region to permit discharge of the accumulated solids through the opening.
- 10. A centrifugal separator, comprising:
a separator housing having a spherical mounting region at one end; a bearing housing having a spherical portion and a short cylindrical portion extending from the spherical portion, the spherical portion being stiffly retained in the spherical mounting region of the separator housing and the cylindrical portion extending into the separator housing along a rotational axis; a bearing disposed within the cylindrical portion of the bearing housing; and a cylindrical centrifugal separator bowl disposed in the separator housing along the rotational axis, the separator bowl having a spindle at one end, the spindle being disposed within the bearing and being coupled to a motor to be rotated about the rotational axis.
- 11. A centrifugal separator according to claim 10, wherein the spherical mounting region is located within a collar-like portion of the separator housing at the one end.
- 12. A centrifugal separator according to claim 11, wherein the collar-like portion has a lateral opening through which a drive belt extends to couple the spindle of the separator bowl to the motor.
- 13. A centrifugal separator according to claim 11, further comprising a pair of seats disposed within the collar of the separator housing, the seats having respective concave inner surfaces in contact with the spherical portion of the bearing housing.
- 14. A centrifugal separator according to claim 10, further comprising:
a stiff resilient ring disposed on the spherical portion of the spindle at an outer end of the separator housing; and a ring retaining member secured to the outer end of the separator housing in compression with the resilient ring.
- 15. A centrifugal separator according to claim 10, wherein the spindle has a central passage lying along the rotational axis through which a shaft-like member extends into the separator bowl.
- 16. A centrifugal separator according to claim 15, wherein the shaft-like member constitutes a scraper shaft attached to a scraper head disposed within the separator bowl, and wherein the scraper head and scraper shaft are operative to be moved axially along the rotational axis as the separator bowl rotates to scrape accumulated solids from an inside surface of the separator bowl.
- 17. A centrifugal separator according to claim 15, wherein the shaft-like member constitutes a piston shaft attached to a piston head disposed within the separator bowl, and wherein the piston head and piston shaft are operative to be moved axially along the rotational axis with the separator bowl rotationally stationary to extrude accumulated solids out of the separator bowl.
- 18. A centrifugal separator, comprising:
a cylindrical housing having a central region, an end region, and an internal surface surrounding an opening between the central and end regions, the central region having a rotatable centrifugal separator bowl mounted therein, the opening being operative to discharge accumulated solids from the separator bowl; and a solids valve mounted in the end region of the housing, the solids valve being rotatable about a diametrical axis of the housing between an open position and a closed position, the solids valve having an offset portion operative (i) when the solids valve is in the closed position, to sealingly contact the internal surface of the housing to prevent discharge of the accumulated solids through the opening thereof, and (ii) when the solids valve is in the open position, to be located at one side of the end region to permit discharge of the accumulated solids through the opening.
- 19. A centrifugal separator according to claim 18, wherein the solids valve includes an internal drain passage via which liquid drained from the separator bowl is discharged, the drain passage disposed in an arm portion of the solids valve extending from the offset portion of the solids valve to the separator housing.
- 20. A centrifugal separator according to claim 18, wherein the solids valve includes an internal feed liquid passage via which a feed liquid is introduced into the separator bowl, the feed liquid passage disposed in an arm portion of the solids valve extending from the offset portion of the solids valve to the separator housing.
- 21. A centrifugal separator according to claim 20, wherein the separator bowl includes a separator bowl opening adjacent to the opening of the separator housing, and wherein the feed liquid enters the separator bowl through the separator bowl opening in a stream from the feed liquid passage in the solids valve.
- 22. A centrifugal separator according to claim 18, wherein the separator housing includes an inward-extending annular flange between the central and end regions, the flange surrounding the opening, and wherein the internal surface comprises a surface of the flange facing the end region.
- 23. A centrifugal separator according to claim 18, further comprising an inflatable seal operative (i) to be inflated to form a seal between the internal surface of the separator housing and the offset portion of the solids valve when the solids valve is in the closed position, and (ii) to be deflated to permit the rotation of the solids valve to the open position.
- 24. A centrifugal separator according to claim 23, wherein the seal is hydraulically inflatable.
- 25. A centrifugal separator according to claim 23, wherein the seal is pneumatically inflatable.
- 26. A centrifugal separator, comprising:
a rotatable cylindrical separator bowl having an open end; and a scraper disposed within the separator bowl, the scraper being operative to rotate with the bowl in a feed mode of operation and to be rotationally stationary during a scraping mode of operation, the scraper having a body portion, scraper arms extending from the body portion to the inner surface of the separator bowl, and skirt portions extending from the arms in an axial direction into the open end of the separator bowl in the feed mode of operation, the skirt portions being pressed against edges of the separator bowl surrounding the open end by flexion due to centrifugal forces generated by rotation of the separator bowl and scraper.
CROSS REFERENCE TO RELATED APPLICATIONS
[0001] This application claims priority under 35 U.S.C. §119(e) of U.S. Provisional Patent Application No. 60/372,153 filed Apr. 12, 2002, the disclosure of which is hereby incorporated by reference herein.
Provisional Applications (1)
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Number |
Date |
Country |
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60372153 |
Apr 2002 |
US |